Calculate the degree of s-p hybridization (i.e. solve for x in sp* to 2 decimal places) for C atom located in a single-walled carbon nanotube that possesses a C-C-C bond angle of 119.6.

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**Problem Statement:** Calculate the degree of s-p hybridization (i.e. solve for x in sp^x to 2 decimal places) for a carbon (C) atom located in a single-walled carbon nanotube that possesses a C-C-C bond angle of 119.6°. **Explanation:** In this problem, you are asked to determine the hybridization state of a carbon atom within a specific context—a carbon nanotube. The hybridization level is denoted as sp^x, where x represents the degree of p orbital character compared to s orbital character in the hybrid orbitals. The bond angle is a critical factor in determining the hybridization. To solve for x, you need to analyze the relationship between bond angles and hybridization. For a perfect sp^2 hybridization, the bond angle is approximately 120°. Since the given angle is 119.6°, a slight deviation from ideal sp^2, it will affect the value of x slightly. The task is to calculate this value accurately.